| 1 - 1 |
Aerogels: current status and challenges for the future
Smirnova I |
| 2 - 8 |
Mixed metal oxide aerogels from tailor-made precursors
Feinle A, Husing N |
| 9 - 15 |
Reinforcing silica aerogels with tungsten disulfide nanotubes
Sedova A, Bar G, Goldbart O, Ron R, Achrai B, Kaplan-Ashiri I, Brumfeld V, Zak A, Gvishi R, Wagner HD, Tenne R |
| 16 - 22 |
Fast production of high-methoxyl pectin aerogels for enhancing the bioavailability of low-soluble drugs
Tkalec G, Knez Z, Novak Z |
| 23 - 33 |
Hybrid alginate based aerogels by carbon dioxide induced gelation: Novel technique for multiple applications
Raman SP, Gurikov P, Smirnova I |
| 34 - 41 |
Experimental and theoretical investigation of drug loading to silica alcogels
Ulker Z, Erkey C |
| 42 - 49 |
Development of egg white protein aerogels as new matrix material for microencapsulation in food
Selmer I, Kleemann C, Kulozik U, Heinrich S, Smirnova I |
| 50 - 56 |
Self diffusion coefficients of organic solvents and their binary mixtures with CO2 in silica alcogels at pressures up to 6 MPa derived by NMR pulsed gradient spin echo
Behr W, Behr VC, Reichenauer G |
| 57 - 61 |
Reduction of shrinkage and brittleness for resorcinol-formaldehyde aerogels by means of a pH-controlled sol-gel process
Tannert R, Schwan M, Ratke L |
| 62 - 68 |
Development of aerogel additives for the foundry industry
Meyer E, Milow B, Ratke L |
| 69 - 75 |
Correlation between the elastic modulus and heat transport along the solid phase in highly porous materials: Theoretical approaches and experimental validation using polyurea aerogels
Weigold L, Reichenauer G |
| 76 - 84 |
Polyurethane aerogels synthesis for thermal insulation - textural, thermal and mechanical properties
Diascorn N, Calas S, Sallee H, Achard P, Rigacci A |
| 85 - 92 |
Effect of additives on the properties of silica based aerogels synthesized from methyltrimethoxysilane (MTMS)
Duraes L, Maia A, Portugal A |
| 93 - 99 |
The effect of embedding highly insulating granular aerogel in cellulosic aerogel
Laskowski J, Milow B, Ratke L |
| 100 - 104 |
Intrinsic surface areas and bond site concentrations of silica aerogels of different densities
Petkov MP, Jones SM, Tsapin A, Anderson MS |
| 105 - 114 |
Production of porous cellulose aerogel fibers by an extrusion process
Karadagli I, Schulz B, Schestakow M, Milow B, Gries T, Ratke L |
| 115 - 121 |
Aerogels as drug delivery systems: In vitro and in vivo evaluations
Lovskaya DD, Lebedev AE, Menshutina NV |
| 122 - 132 |
Modeling and scale-up of supercritical fluid processes. Part I: Supercritical drying
Lebedev AE, Katalevich AM, Menshutina NV |
| 133 - 139 |
Impact of surfactants and acids on the sol-gel synthesis of MgO aerogels
Feinle A, Heugenhauser A, Husing N |
| 140 - 144 |
Synthesis and characterisation of ambient pressure dried composites of silica aerogel matrix and embedded nickel nanoparticles
Han X, Williamson F, Bhaduri GA, Harvey A, Siller L |
| 145 - 151 |
Heat-resistant, strong titania aerogels achieved by supercritical deposition
Zu GQ, Shen J, Wang WQ, Lian Y, Zou LP, Zhang YW, Liu B, Zhang F |
| 152 - 159 |
Preparation of macroporous alginate-based aerogels for biomedical applications
Martins M, Barros AA, Quraishi S, Gurikov P, Raman SP, Smirnova I, Duarte ARC, Reis RL |
| 160 - 166 |
Highly porous silica xerogels without surface modification
Scherdel C, Reichenauer G |
